KR20180047921A - Parallel floor panel for hot water heating - Google Patents

Abstract

A parallel floor panel for hot water heating (100) according to the present invention includes a plate-shaped insulator (110) formed such that a boiler hose (H) can be installed and a synthetic resin cover (120) attached to the surface of the insulator (110). The insulator (110) includes a plate-shaped body (111) and multiple ridge portions (115) arranged in a lattice shape to quadrangularly protrude from the surface of the body (111) and adjusted in mutual gap (L) for the boiler hose (H) to be inserted. The cover (120) is formed in accordance with the surface of the body (111) and the ridge portion (115) as if coated in the gap (L). Accordingly, the cover (120) protects the insulator (110), and thus damage during transport and construction can be prevented, a worker can move on the present invention with ease during floor construction. In addition, the sheet (130) is attached to a rear surface (114) of the body (111), and thus product quality deterioration attributable to damage to the rear surface (114) can be prevented.

Description

Parallel floor panel for hot water heating

[0001] The present invention relates to a parallel floor panel for hot water heating, and more particularly, to a parallel floor panel for hot water heating characterized in that damage is prevented by a cover attached to the surface of the heat insulating material, .

Generally, a floor panel for hot water heating (1) is laid on the slab surface of the building to construct the indoor floor. Therefore, in order to prevent heat dissipation through the slab, reduce interlayer noise and fix the boiler hose (H) The floor panel 1 is used.

FIG. 1 is a plan view showing a boiler hose installed on a floor panel for hot water heating according to the background art. FIG. 2 is a sectional view taken along line F-F 'of FIG. 1, The following is an example.

A plurality of projections 20 are formed on the surface of the body 10 so that the boiler hose H can be inserted into the body 10. The heat insulating material mainly uses a foaming material. The distance between the projections 20 is adjusted to such an extent that it can be fixed when the boiler hose H is interposed.

An example of constructing an indoor floor using the hot water heating floor panel 1 is as follows.

A plurality of the hot water heating floor panels (1) are mounted on the slab surface of the building. Then, the boiler hose H is sandwiched between the projections 20 so as to be positioned along the hot water line of the circuit diagram.

The surface of the hot water heating floor panel 1 is covered with a mortar made of yellow soil or cement so that the boiler hose H is buried. After the mortar is cured, the floor is laid on the surface of the mortar, and the floor construction is completed.

There may be a case where a metal plate of a zinc plate or a copper plate is covered on the surface of the hot water heating floor panel 1 instead of the mortar. At this time, since the sheet is laid on the surface of the metal sheet immediately without the curing time, the floor construction is completed.

Korean Patent Publication No. 10-2004-0019504 (March 06, 2004)

The floor panel for hot water heating according to the background art has the following problems.

First, since the body and the projection are integrally molded and made of a foam material, there is a problem in that rigidity is lacking due to the characteristics of the foam material. Therefore, there is a problem that it is easily damaged at the time of transportation or construction to lose its function. For example, during construction, a number of floor panels for hot water heating are laid on the surface of the slab, and workers work on the boiler hose, where workers move by stepping on the floor panels for hot water heating. Accordingly, since the projections are easily damaged and dislocated, the boiler hose can not be properly positioned, and a flow line of hot water can not be formed according to the circuit diagram. In order to prevent such a phenomenon, it is possible to form a material having rigidity. In this case, however, there is a problem that sound conductivity is improved and interlayer noise is further increased.

  Second, there was a problem that it was difficult to bend roundly while installing the boiler hose. That is, as shown in FIG. 1, when the boiler hose has a single inlet and an outlet, and the plurality of hoses are connected in series, the boiler hose must be bent several times. In Figure 1, the boiler hose is shown with a rounded curved shape, but this is actually hard to do. This is because the protrusions are formed in a plurality of protrusions so that the boiler hoses are inserted between the protrusions and are not formed to guide the curvature of the boiler hose.

Third, in the case of using a metal plate instead of mortar, since a plurality of metal plates are used, a gap is formed between the wall and the metal plate and between the metal plate and the metal plate. The hot water heating floor panel is formed of a foam material such as styrofoam or urethane which is combustible. Therefore, the flame penetrates into the gap at the time of a fire, and the floor panel for hot water heating is burnt, so that incomplete combustion gas is generated, which is a main cause of harm to human life.

Accordingly, it is an object of the present invention to provide a parallel floor panel for hot water heating which can solve the above problems.

A parallel floor panel for hot water heating according to the present invention is constructed as follows to solve the above problems.

A plate-shaped heat insulating material formed so that a boiler hose can be installed, and a cover which is attached to the surface of the heat insulating material and is a synthetic resin.

The heat insulating material includes a plate-like body, and a plurality of protrusions protruding in a rectangular shape on the surface of the body and arranged in a lattice shape and having a gap interval adjusted to fit the boiler hose.

The cover is formed to conform to the surface and the ridge portion of the body as if coated in a gap.

The first curved groove is formed from the right vertex of the protruding portion to the left vertex of the upper end and is convex toward the right vertex of the upper end. The first curved groove is formed at the right vertex of the lower end of the protruded portion, Wherein the first curved groove and the second curved groove are connected to the gap, and the cover includes a first curved groove and a second curved groove formed in the first curved groove and the second curved groove, It is formed in conformity with coating on the curved groove.

The third curved groove is formed from the left vertex to the upper right vertex of the lower end of the protruding portion where the first curved groove and the second curved groove are not formed and is convex toward the upper left vertex, And a fourth curved groove formed from the left vertex of the lower end of the groove formed with the groove to the right vertex of the upper end and formed to be convex toward the right vertex of the lower end of the first curved groove and the fourth curved groove, And the cover is formed in conformity with the coating of the third curved groove and the fourth curved groove.

The third curved groove is formed from the left vertex to the upper right vertex of the lower end of the raised portion formed with the first curved groove and the second curved groove and formed to be convex toward the upper left vertex, And a fourth curved groove formed from the left vertex of the lower end of the ridge portion to the right vertex of the upper end and formed to be convex toward the right vertex of the lower end formed with the second curved groove and the third curved groove, The fourth curved groove is connected to the gap, and the cover is formed in conformity with the coating on the third curved groove and the fourth curved groove.

And a circular groove formed to be circular in the ridge portion and configured to be connected to an interval gap formed in the outer chamber of the ridge portion, wherein the cover is formed in conformity with coating the circular groove.

Further, four of the raised portions formed with the first curved groove and the second curved groove and the raised portions formed with the third curved groove and the fourth curved groove are selected and arranged in a rectangular shape.

And a sheet attached to a back surface of the body.

Further, the cover is formed of a synthetic resin including yellow soil.

In addition, the cover includes a flange extending from the rim toward the back surface of the body to cover the rim of the heat insulating material, and an ocher coating material applied to the surface of the cover.

The present invention by the above-mentioned solution has the following effects.

First, since the cover having rigidity is attached to the surface of the heat insulating material, there is an effect that the damage during transport and construction can be prevented. Therefore, there is an effect that an operator can easily walk on the present invention at the time of floor construction. In particular, since the seat is attached to the lower surface of the body, there is an effect that the lower surface of the body is damaged and the merchantability is lost.

Second, since the first curved groove, the second curved groove, the third curved groove, the fourth curved groove, and the circular groove can easily curl the boiler hose, it is possible to freely bend the boiler hose at a desired point So that various wiring can be effected.

Third, when a metal plate is installed instead of a mortar, even if a flame penetrates into a gap between metal plates and a metal plate during a fire, since the cover protects the body, the body burns to generate a toxic gas, Can be prevented. In particular, since the cover is formed with a flange extending downwardly around the cover, the cover can cover the edge of the body. Therefore, it is possible to effectively prevent the flame from penetrating into the body during a fire.

1 is a plan view showing a boiler hose wired on a floor panel for hot water heating according to the background art;
2 is a cross-sectional view taken along the line F-F 'in Fig.
3 is a perspective view illustrating a parallel floor panel for hot water heating according to the present invention.
4 is a front view showing a heat insulating material constituting a parallel floor panel for hot water heating according to the present invention.
5 is an exploded perspective view showing a parallel floor panel for hot water heating according to the present invention.
6 is a plan view showing that a boiler hose is wired on a parallel floor panel for hot water heating according to the present invention.
7 is a partial sectional view showing a boiler hose added to a section taken along line G-G 'of Fig. 3; Fig.
FIG. 8 is a perspective view of a parallel floor panel for hot water heating according to the present invention, in which four circular grooves are arranged. FIG.
Fig. 9 is a perspective view showing an example in which the boiler hose is freely wired in Fig. 8; Fig.
10 is a cross-sectional view showing a state in which an indoor floor is installed using a parallel floor panel for hot water heating according to the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate the embodiments of the invention and, together with the description, serve to explain the principles of the invention.

FIG. 3 is a perspective view showing a parallel floor panel for hot water heating according to the present invention, FIG. 4 is a front view showing a heat insulating material constituting a parallel floor panel for hot water heating according to the present invention, and FIG. FIG. 6 is a plan view showing a boiler hose wired on a parallel floor panel for hot water heating according to the present invention. FIG. 7 is a cross-sectional view taken along line G-G ' And a boiler hose according to an embodiment of the present invention.

A plate-shaped heat insulating material 110 is formed so that the boiler hose H can be installed thereon. The cover 120, which is a synthetic resin, is attached to the surface of the heat insulating material 110.

The heat insulating material 110 includes a plate body 111 and is arranged in a lattice shape protruding in a rectangular shape on the surface of the body 111. A gap L is formed between the heat insulating material 110 and the boiler hose H A plurality of adjusted ridges 115 are constructed. Therefore, the interval gap L between the raised portions 115 is formed in a straight line in a lattice shape, so that the boiler hose H can be linearly wired.

The boiler hose H inserted along the interval gap L is bent so that the wiring direction can be easily changed so that the upper right corner point P of the lower end of the ridge portion 115, (S) and the first curved groove (A) is formed so as to be convex toward the upper right corner point (R). The first curved groove A is formed from the right vertex P of the lower end of the protrusion 115 to the upper left vertex S and convexly curved toward the lower left vertex Q, (B) is formed. The first curved groove (A) and the second curved groove (B) are formed to be connected to the interval gap (L). Therefore, the boiler hose H, which is wired in the interval gap L, can be wired in the interval gap L after being bent through the first curved groove A or the second curved groove B.

The lower end of the raised portion 115 is formed from the left vertex Q to the upper right vertex R without the first curved groove A and the second curved groove B, The third curved groove C is formed so as to be convex toward the center S. The third curved groove C is formed from the left vertex Q of the lower end of the raised portion 115 to the upper right vertex R and is convexly convex toward the lower right vertex P, (D) is formed. The third curved groove (C) and the fourth curved groove (D) are formed to be connected to the interval gap (L). Therefore, the boiler hose H, which is wired in the interval gap L, can be wired in the interval gap L after being bent through the third curved groove C or the fourth curved groove D.

The third curved groove C and the fourth curved groove D may be simultaneously formed on the ridge 115 where the first curved groove A and the second curved groove B are formed. Of course, the first curved groove A and the second curved groove B, the third curved groove C and the fourth curved groove D are formed to be connected to the gap L. [ Since the first curved groove A, the second curved groove B, the third curved groove C and the fourth curved groove D are simultaneously formed on the ridge 115, the ridge 115 The boiler hose H can be bent in various directions.

A circular groove E is formed in the protruding portion 115 so as to be circular and connected to a gap L formed in the outer side of the protruding portion 115. The boiler hose H introduced into the circular groove E along the interval gap L may be rotated 180 degrees along the circular groove E and then discharged through the other gap L. [

As shown in FIGS. 3 and 4, for example, the protruding portion 115 formed with the first curved groove A and the second curved groove B, and the third curved groove C and the fourth curved groove B, D may be selected and arranged in a rectangular shape. A first curved groove A, a second curved groove B, a third curved groove C and a fourth curved groove D are formed at the center of the four ridges 115 at the same time, (115).

Also, the raised portion 115 formed with the circular groove E may be disposed between the raised portions 115 arranged in a square shape. Since these combinations are arranged regularly, various wiring of the boiler hose H becomes possible.

4, a protrusion 115 having a circular groove E formed at its center is disposed, and the first curved groove A and the second curved groove B are formed around the protrusion 115 Two raised portions 115 and two raised portions 115 formed with the third curved groove C and the fourth curved groove D are arranged in a square shape. This is referred to as a first set (W) for convenience in the present invention. And four second sets (X) are arranged in a square shape around the first set (W). The second set X includes a ridge 115 having a first curved groove A, a second curved groove B, a third curved groove C and a fourth curved groove D formed at the center thereof And two raised portions 115 having the first curved groove A and the second curved groove B formed around the raised portion 115 and the second curved groove 115 formed by the third curved groove C and the fourth curved groove B, Two protruding portions 115 formed with a plurality of protrusions D are arranged in a square shape. And one protrusion 115 having a circular groove E formed between the protrusions 115 is disposed.

Alternatively, in the first set W of preparation and the second set X of the composition as shown in Fig. 8, two ridges 115 formed with the first curved groove A and the second curved groove B, Four raised portions 115 each having a circular groove E formed between the two raised portions 115 formed with the third curved groove C and the fourth curved groove D may be formed in a rectangular shape have. In this case, as shown in Fig. 9, there is an advantage that the boiler hose H can be bent while flexing freely.

Also, since the seat 130 is attached to the back surface of the body 111, damage to the body 111 can be prevented. The sheet 130 may be made of corrugated cardboard or cardboard, for example.

The cover 120 includes a surface of the body 111, a ridge 115, a gap L, a first curved groove A, a second curved groove B, a third curved groove C, , The fourth curved groove (D), and the circular groove (E). Therefore, the shape of the body 111 can be reproduced on the surface of the cover 120 as it is. The cover 120 extends from the rim toward the rear surface 114 of the body 111 and forms a flange 125 covering the side surface 118 of the body 111. Thus, combustion of the body 111 is prevented from flames penetrating from above. The width and spacing of the first curved groove A, the second curved groove B, the third curved groove C, the fourth curved groove D, and the circular groove E formed in the cover 120, The width of the gap L is adjusted to such a width that it can be pushed so as to be prevented from being released when the boiler hose H is inserted.

The cover 120 is a flame-retardant synthetic resin, and may be formed of, for example, ABS resin. It is preferable that the ABS resin is formed by mixing a mixture of loess and a flame retardant. The ABS resin is a synthetic resin having acrylonitrile, polybutadiene, and styrene bonded thereto, and is excellent in impact resistance, heat resistance, chemical resistance, and moldability. When the boiler hose H is heated by mixing the loess with the ABS resin, far-infrared rays are irradiated. (Not shown) is applied to the upper surface of the cover 120 instead of mixing the yellow soil, so that far-infrared rays can be radiated in the same manner.

The flame retardant may be selected from, for example, antimony trioxide, a hydroxyl compound, a heavy metal compound, calcium carbonate, and a halogen compound. The loess is mixed with 0.5 to 5% by weight of the ABS resin, and the flame retardant may be mixed with 10 to 15% by weight of the ABS resin.

The heat insulating material 110 is composed of urethane mixed with flame retardant to prevent interlayer noise while having a heat insulating function and to have a buffer function. The flame retardant may be selected from, for example, antimony trioxide, a hydroxyl compound, a heavy metal compound, calcium carbonate, and a halogen compound, and may be a mixture of 10 to 15% by weight of the urethane weight.

FIG. 7 is a plan view showing that a boiler hose is wired on a parallel floor panel for hot water heating according to the present invention, and FIG. 8 is a sectional view showing a state in which an indoor floor is installed using a parallel floor panel for hot water heating according to the present invention Hereinafter, a construction example of the parallel floor panel 100 for hot water heating according to the present invention will be described.

A plurality of parallel floor panels 100 for hot water heating according to the present invention are disposed on the surface of the slab R and a line of the boiler hose H is introduced into the linear gap L as shown in FIG. Since it is curved through any of the first curved groove A, the second curved groove B, the third curved groove C and the fourth curved groove D, it can be wired in a 90 degree direction. Further, it is possible to switch the direction of 180 degrees through any of the circular grooves E and to perform wiring. As described above, the present invention has an advantage that bending of the boiler hose H is easy during wiring. Therefore, there is an advantage that one line of the boiler hose H can be wired in various shapes as shown in Fig. Also, even if the operator steps on and moves to perform the wiring operation, it is possible to prevent the body (111) from being damaged due to the cover (120). In addition, the cover 120 also functions to protect the body 111 during transportation or storage of the present invention. In addition, the seat 130 attached to the opposite side of the cover 120 prevents the back surface of the body 111 from being damaged, so that the merchantability can be maintained.

In this way, a plurality of stranded boiler hoses H can be wired side by side with the wired boiler hoses H above. Since the boiler hose H of a plurality of strands is wired individually so that the inlet and the outlet are different from each other, the wiring can be densely wired, thereby improving the thermal efficiency.

 8, the upper portion of the cover 120 of the present invention is covered with a mortar T made of loess or cement. As another example, after the wiring of the boiler hose H is completed, the cover 120 is covered with a metal plate (not shown) which is a zinc plate or a copper plate. And the floor (S) is covered so that the floor construction is completed.

At this time, since the cover 120 is mixed with yellow soil, there is an advantage that the boiler hose H radiates the far-infrared rays when the boiler hose generates heat, thereby helping health. Since the cover 120 includes a flame retardant and has heat resistance, the cover 120 can be prevented from generating a toxic gas since it is burnt during a fire. In addition, since the body 111 also includes a flame retardant, the degree of burning can be reduced compared to conventional urethane.

Therefore, when the metal plate is installed instead of the mortar, the cover 120 protects the body 111 even if the flame infiltrates between the metal plates and between the metal plate and the wall during the fire, so that the body 111 is burned Toxic gas is generated, so that the harmful effects can be prevented. Particularly, the cover 120 can cover the side surface 118 of the body 111 because the flange 125 extending downward is formed around the cover 120. Accordingly, it is possible to effectively prevent the flame from penetrating into the body 111 during a fire.

100: Parallel floor panel for hot water heating 110: Insulation
111: body 113: rim 114: back side 115: ridge
P: Lower right vertex Q: Lower left vertex
R: Upper right vertex S: Upper left vertex
A: 1st curved groove B: 2nd curved groove
C: Third bend groove D: Fourth bend groove
L: clearance gap 120: cover
125: flange 130: seat
W: Formulation 1 set X: Formulation 2 set

Claims (9)

A plate-shaped heat insulating material 110 formed so that the boiler hose H can be installed,
And a cover 120 that is attached to the surface of the heat insulating material 110 and is a synthetic resin,
The heat insulating material (110)
A plate-like body 111,
And a plurality of ridges 115 protruding in a rectangular shape on the surface of the body 111 and arranged in a lattice shape and in which the gap L is adjusted so as to fit the boiler hose H,
The cover (120)
And a gap (L) formed between the surface of the body (111) and the ridge (115). The method according to claim 1,
A first curved groove A formed from the right vertex P of the lower end of the protrusion 115 to the upper left vertex S and convex toward the upper right vertex R,
The second curved groove 115 is formed from the right vertex P of the lower end of the protrusion 115 on which the first curved groove A is formed to the upper left vertex S and is convex toward the lower left vertex Q, (B)
The first curved groove A and the second curved groove B are connected to the interval gap L,
Wherein the cover (120) is formed as if it were coated on the first curved groove (9) and the second curved groove (B). 3. The method of claim 2,
A bottom right corner point Q of the lower end of the raised portion 115 in which the first curved groove A and the second curved groove B are not formed is formed from the left vertex Q to the upper right vertex R, A third curved groove C formed so as to be convex toward the second curved groove C,
A fourth curved portion formed from the left vertex Q of the lower end of the raised portion 115 where the third curved groove C is formed to a right vertex R of the upper end and convexed toward the lower right vertex P, Groove D,
The third curved groove (C) and the fourth curved groove (D) are connected to the interval gap (L)
Wherein the cover (120) is formed as if it were coated on the third curved groove (C) and the fourth curved groove (D). 3. The method of claim 2,
The upper left corner point S is formed from the left vertex Q of the lower end of the protrusion 115 where the first curved groove A and the second curved groove B are formed to the upper right corner point R, A third curved groove C formed so as to be convex toward the second curved groove C,
From the left vertex Q of the lower end of the protrusion 115 formed with the first curved groove A and the second curved groove B together with the third curved groove C to the right vertex R of the upper end And a fourth curved groove D formed so as to be convex toward the right vertex P of the lower end,
The third curved groove (C) and the fourth curved groove (D) are connected to the interval gap (L)
Wherein the cover (120) is formed as if it were coated on the third curved groove (C) and the fourth curved groove (D). 5. The method according to any one of claims 1 to 4,
And a circular groove E formed in the protruding portion 115 to be circular and connected to a gap L formed in the outer side of the protruding portion 115,
Wherein the cover (120) is formed as if it were coated on the circular groove (E). 5. The method of claim 4,
The protruding portion 115 formed with the first curved groove A and the second curved groove B and the protruding portion 115 formed with the third curved groove C and the fourth curved groove D Wherein the plurality of the floor panels are arranged in a square shape. The method according to any one of claims 1 to 4 and 6,
And a seat (130) attached to the back surface (114) of the body (111). 8. The method of claim 7,
Wherein the cover (120) is a synthetic resin including loess. 8. The method of claim 7,
The cover 120 includes a flange 125 extending from the rim toward the rear surface 114 of the body 111 and covering the side surface 118 of the body 111,
(Not shown) coated on the surface of the cover 120. The parallel floor panel for hot water heating according to claim 1,

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